Adenosine deaminase (ADA), ecto 5' nucleotidase (5'NT), purine nucleoside phosphorylase (PNP) and terminal deoxynucleotidyl transferase (TdT) were measured in the cells of patients with acute or chronic T cell leukaemia and compared with normal putative prothymocytes (large, blast-like cortical thymocytes), cortical and medullary thymocytes and peripheral blood T lymphocytes. Distinct patterns of enzyme activities were found in the individual types of T cell leukaemia. Mean ADA, TdT and 5'NT activities in thymic acute lymphoblastic leukaemia (Thy-ALL) were 41.9 u/10(8) cells, 31.1 u/10(8) cells and 4.7 u/10(6) cells respectively; in chronic T cell leukaemia they were 7.1 u/10(8) cells, 0.6 u/10(8) cells and 18.1 u/10(6) cells respectively. Mean PNP activity was similar between these two groups of leukaemia (68.6 u/10(6)cells in Thy-ALL and 77.9 u/10(6) cells in chronic T cell leukaemia). The activities of these four enzymes in OKT4+ chronic T cell leukaemia did not differ significantly from those in the OKT8+ chronic T cell leukaemia cases. The activities of TdT, ADA, PNP and 5'NT in Thy-ALL closely resembled those in normal immature thymocytes, and in the chronic T cell leukaemias showed a similar pattern of enzyme activities to that of mature T lymphocytes. These findings are consistent with surface phenotypic studies of T cell malignancies which suggest that different T cell leukaemias represent malignant proliferation of T cell clones arrested at different stages of T cell differentiation. They also demonstrate the value of biochemical markers in defining the different subtypes of acute and chronic leukaemia.
Comparison of purine degradative enzymes and terminal deoxynucleotidyl transferase in T cell leukaemias and in normal thymic and post-thymic T cells.
MASSAIA, Massimo;
1983-01-01
Abstract
Adenosine deaminase (ADA), ecto 5' nucleotidase (5'NT), purine nucleoside phosphorylase (PNP) and terminal deoxynucleotidyl transferase (TdT) were measured in the cells of patients with acute or chronic T cell leukaemia and compared with normal putative prothymocytes (large, blast-like cortical thymocytes), cortical and medullary thymocytes and peripheral blood T lymphocytes. Distinct patterns of enzyme activities were found in the individual types of T cell leukaemia. Mean ADA, TdT and 5'NT activities in thymic acute lymphoblastic leukaemia (Thy-ALL) were 41.9 u/10(8) cells, 31.1 u/10(8) cells and 4.7 u/10(6) cells respectively; in chronic T cell leukaemia they were 7.1 u/10(8) cells, 0.6 u/10(8) cells and 18.1 u/10(6) cells respectively. Mean PNP activity was similar between these two groups of leukaemia (68.6 u/10(6)cells in Thy-ALL and 77.9 u/10(6) cells in chronic T cell leukaemia). The activities of these four enzymes in OKT4+ chronic T cell leukaemia did not differ significantly from those in the OKT8+ chronic T cell leukaemia cases. The activities of TdT, ADA, PNP and 5'NT in Thy-ALL closely resembled those in normal immature thymocytes, and in the chronic T cell leukaemias showed a similar pattern of enzyme activities to that of mature T lymphocytes. These findings are consistent with surface phenotypic studies of T cell malignancies which suggest that different T cell leukaemias represent malignant proliferation of T cell clones arrested at different stages of T cell differentiation. They also demonstrate the value of biochemical markers in defining the different subtypes of acute and chronic leukaemia.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.